Applied molecular biology of sepsis

doi:10.1016/0883-9441(95)90011-X

Journal of Critical Care

Volume 10, Issue 4, December 1995, Pages 198-212

https://doi.org/10.1016/0883-9441(95)90011-X Get rights and content

Abstract

The effective treatment of sepsis and septic shock has remained elusive despite intense research efforts. The tools of molecular biology have been applied to the problem of sepsis in an attempt to design more rational, directed therapy. Cellular interactions with invading microorganisms begin a series of stimulation events within the cel. One of the important interactions is the binding of lipopolysaccharide (LPS) from gram-negative bacteria to teh LPS binding protein, and then this complex binding to CD14 on monocytes. Cell stimulation occurs through activation of signal transduction pathways within the cell, many of which have been defined. These include the kinases that phosphorylate proteins, and phosphatases that dephosphorylate proteins. The next step after activation of the signal transduction pathway is stimulation of nuclear regulatory factors. One of the best characterized of these is nuclear regulatory factor kappa B (NF-κB), which is trans activating element that binds to specific DNA nucleotide sequences to allow transcription of downstream elements. Many inflammatory mediators are located downstream of NF-κB so that activation of NF-κB causes upregulation of the inflammatory mediators. The cytokines have been identified as a group of mediators important in the pathogenesis of sepsis, because several studies have shown that higher levels are correlated with a worse outcome in patients. Additionally, in experimental animal models, inhibition of cytokins improves survival, and administration of exogenous, recombinant cytokines reproduces many of the pathophysiologic alterations observed in sepsis. Molecular biology has played a critical role in the understanding of sepsis by providing the tools to make the recombinant cytokines of sufficient purity and quantity for infusion into experimental animals. The cellular response for the production of cytokines occurs through classic protein chemistry, with the signal transduction inducing messenger RNA (mRNA) coding for the cytokines, which are then translated and secreted. The relative contribution of local versus systemic cytokine production is beginning to be appreciated, with several diseases showing substantially higher local cytokine levels. The cytokines exert their activity on other cells by binding to their specific cytokine receptors. These receptors are part of the immune response and may be shed from the cell surface. These soluble receptors bind to and inactivate the cytokines. Inhibition of cytokine activity has been hypothesized as a potential therapy for sepsis. This inhibition has been done with antibodies directed against either the cytokines themselves or their receptors. Naturally occurring cytokine inhibitors have been cloned and expressed by molecular biologists adn used for treatment of sepsis and other diseases. Using molecular biology techniques, the murine antibodies have been “humanized” to reduce their immunogenicity. The measurement of cytokines is critically important to our understanding of their role in health and disease. Cytokines may be measured by either immunologic methods or biological assays. Molecular biology has made important contributions to our understanding of sepsis by precisely identifying some of the mediators and providing reagents for therapeutic use.

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^☆: Supported in part by NIH grants nos. GM44918 and DK42455.

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Applied molecular biology of sepsis☆

Abstract

Cell

Lancet

Int Rev Exp Pathol

Immunol Today

Chest

Gene

Cell

Biochem Biophys Res Commun

FASEB J

Science

Clin Immunol Immunopathol

Biochem J

Let's agree on terminology: Definitions of sepsis

Crit Care Med

Structure and function of lipopolysaccharide binding protein

Science

CD14, a receptor for complexes of lipopolysaccharide (LPS) and LPS binding protein

Science

Oxygen radical scavengers selectively inhibit interleukin 8 production in human whole blood

J Clin Invest

Acute lung injury during bacterial or fungal sepsis

Microsc Res Tech

Lipopolysaccharide receptors and signal transduction pathways in mononuclear phagocytes

Curr Top Microbiol Immunol

How cytokines signal messages within cells

J Infect Dis

Role of tumor necrosis factor-alpha in lipopolysaccharide-induced pathologic alterations

Am J Pathol

The cardiovascular response of normal humans to the administration of endotoxin

N Engl J Med

Detection of interleukin 8 and tumor necrosis factor in normal humans after intravenous endotoxin: the effect of antiinflammatory agents

J Exp Med

The clearance, tissue distribution, and cellular localization of intravenously injected lipopolysaccharide in rabbits

J Immunol

Treatment of gram-negative bacteremia and septic shock with HA-1A human monoclonal antibody against endotoxin: A randomized, double-blind, placebo-controlled trial. The HA-1A Sepsis Study Group

N Engl J Med

Anti-endotoxin monoclonal antibodies: A second look

N Engl J Med

Acute in vivo effects of human recombinant tumor necrosis factor

Lab Invest

Shock and tissue injury induced by recombinant human cachectin

Science

Interleukin 1 induces a shock-like state in rabbits: Synergism with tumor necrosis factor and the effect of cyclooxygenase inhibition

J Clin Invest

Anti-cachectin/TNF monoclonal antibodies prevent septic shock during lethal bacteraemia

Nature

Passive immunization against cachectin/tumor necrosis factor protects mice from lethal effect of endotoxin

Science

Monoclonal antibodies and the treatment of gram-negative bacteremia and shock

N Engl J Med

Tumor necrosis factor induction by Candida albicans from human natural killer cells and monocytes

J Immunol

Induction of tumor necrosis factor by Legionella pneumophila

Infect Immun

Lyme disease spirochetes induce human and murine interleukin 1 production

J Immunol

Soluble surface proteins from Helicobacter pylori activate monocytes/macrophages by lipopolysaccharide-independent mechanism

J Clin Invest

Biphasic production of IL-8 in lipopolysaccharide (LPS)-stimulated human whole blood: Separation of LPS- and cytokinestimulated components using anti-tumor necrosis factor and anti-IL-1 antibodies

J Immunol

Superantigens associated with staphylococcal and streptococcal toxic shock syndrome are potent inducers of tumor necrosis factor-beta synthesis

J Infect Dis

Cytokine (tumor necrosis factor, IL-6, and IL-8) production by respiratory syncytial virus-infected human alveolar macrophages

J Immunol

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N Engl J Med